PL166681B1 - Thin-walled precast reinforced concrete floor slab in particular for floors subject to bidirectional bending loads - Google Patents

Abstract

1 · Thin-walled precast reinforced concrete floor slab, especially for ceilings bi-directional bending consisting of reinforced with slab reinforcement inserts thin-walled concrete and protruding over ribs in the shape of spatial trusses with a triangular cross-section, the lower ones the belts are embedded in concrete, characterized in that led out along the longitudinal edge of the plate (1) are joining the reinforcing bars upwards (3) in the form of loops, with these bars are not more than 2.5 plate thicknesses (1) from its edge and are spaced along this one edges at least 6 plate thicknesses (1)

Description

The subject of the invention is a thin-walled reinforced concrete prefabricated floor slab, especially for bidirectionally bent floors.

Thin-walled slabs consisting of a thin-walled concrete slab reinforced with reinforcement inserts and ribs in the shape of a spatial truss with a triangular cross-section have been used for the construction of reinforced concrete ceilings for many years. These trusses are made of reinforcing bars and cold-bent profiles. The lower strips of these trusses are embedded in the concrete of the slab and are part of its longitudinal reinforcement. Panels of this type, known from the original as "Omnia" panels, are found in world construction in many varieties under the trade names, including "Omnia", "Kaiser Plattendecke", "Filigran Plattenelement". This solution also has national equivalents known, among others, from Polish patent description No. 148 931 as well as ZPS boards and others.

The method of making a prefabricated floor slab according to the patent No. 148931 consists in placing a specially constructed spatial truss vertically along the longer side of the basic reinforcement mesh, and an anti-knot spiral is inserted into the joint between the slabs. The essence of the solution according to this patent comes down to the method of making a spatial truss. The truss consists of two overlapping spirals, right-handed and left-handed. The vertex nodes of the truss are welded to the top bar, and the crossing bases of the spirals are welded to the longitudinal bars placed under the transverse bars.

The prefabricated panels according to the invention No. 148931, after being installed on the construction site and placed at the joints of the anti-knot spiral, are poured with supplementary concrete, creating a composite floor. The composite floor created in this way works unidirectionally in the operational phase, and the spiral placed at the contact point only prevents keying, because it transfers only transverse forces.

From the French patent description No. 2,282,515 a thin-walled prefabricated reinforced concrete floor slab with protruding ribs in the shape of spatial trusses with a triangular cross-section is known. At the edges of the panels, single reinforcing bars are led out, and in the joint of the panels, a flattened spiral stretched along the joint of the panels is used as connecting reinforcement. In this solution, the anchoring of the withdrawn reinforcement and the connecting reinforcement is of adhesion character.

The essence of the invention is the construction of a thin-walled reinforced concrete prefabricated floor slab, especially for two-way bending ceilings, consisting of a thin-walled concrete slab reinforced with reinforcement inserts and ribs protruding above it in the shape of spatial triangular trusses, the bottom strips of which are embedded in concrete, in which, according to the invention, joining bars are led upward along the longitudinal edge of the plate

166 681 3 reinforcement in the form of loops, the bars being not more than 2.5 times the board thickness from its edge and spaced along this edge not less than 6 board thicknesses.

In addition, a loop-shaped connecting reinforcement extends between the ribs, with the loops arranged in rows perpendicular to the direction of the ribs.

The purpose of the bonding reinforcement located along the edge of the slab parallel to the truss direction is full bonding of these edges with the supplementary concrete, which is achieved by mechanical (welded or welded) connection of the bonding reinforcement with the supporting reinforcement of the slab and mechanical loop anchoring of this reinforcement in the supplementary concrete.

Before concreting the floor, connecting reinforcement is placed in the joint. The reinforcement is made in the form of a mesh, the bars of which are mechanically anchored longitudinally in the supplementing concrete through transverse bars, all the more that they overlap the vertical loop-shaped reinforcement at the joint edge. As it follows, both the bonding reinforcement and the connecting reinforcement are anchored mechanically and not adhesively, which ensures a secure connection while minimizing steel wear. This makes it impossible to open the crack between the prefabricated element and the supplementary concrete, which determines the cooperation of these two elements, especially in the central zone of the ceiling, and allows the use of the transverse reinforcement in the prefabricated element in the operational phase.

Reinforcement in the form of a loop plays a basic role at the very edge of the slab and cannot be moved away from it, therefore it has been experimentally determined that it should be not more than 2.5 thicknesses from its edge and not less frequently than every 6th plate thickness.

The use of connecting reinforcement located between the trusses and in rows perpendicular to the direction strengthens the connection of the prefabricated elements with the concrete applied on the construction site in the area of high transverse forces and, above all, in the area of high torsional moments. The advantage of the invention is that the prefabricated panels can be fully joined together. This connection transfers shear forces and bending moments in a direction perpendicular to the span of the plates.

The subject of the invention is presented in more detail in the embodiment in the drawing, in which Fig. 1 shows an axonometric view of a thin-walled floor slab, and Fig. 2 shows a cross-section of the floor at the joint between the slabs.

As shown in the figure, a thin-walled reinforced concrete prefabricated floor slab consists of a concrete slab 1 reinforced with reinforcement inserts with a thickness of not more than 60 mm. Above the plate 1, truss-like ribs 2 with a triangular cross-section protrude. The lower ribbons 2 are also the reinforcement of the slab 1. Along the edge of the slab 1, parallel to the ribs 2, joining reinforcing bars 3 are introduced in the form of loops. In an embodiment, the reinforcing bars 3 are spaced 120 mm from the edge of the plate 1 and are spaced along this edge at least every 333 mm. A connecting reinforcement 4 in the form of a loop can also be led between the truss ribs 2. The loops of the connecting reinforcement are arranged in rows in rows perpendicular to the ribs 2. In order to make the ceiling, after assembling the panels 1, the joint between the panels 1 is covered with a suitably selected reinforcing mesh 5, as shown in Fig. 2, and any additional reinforcement is introduced on the surface of the slab 1 and applies complementary concrete.

fig. 2

Publishing Department of the UP RP. Circulation of 90 copies

Price 1, <00 PLN.

Claims (2)

Patent claims 1. Thin-walled reinforced concrete prefabricated floor slab, especially for bidirectionally bent ceilings, consisting of a thin-walled concrete slab reinforced with reinforcement inserts and ribs protruding above it in the shape of spatial trusses with a triangular cross-section, the lower strips of which are embedded in the concrete, characterized in that along the longitudinal the edge of the plate (1) lead upwards joining reinforcing bars (3) in the form of a loop, with these bars not more than 2.5 thicknesses of the plate (1) from its edge and spaced along this edge at least 6 thicknesses plates (1). 2. A thin-walled reinforced concrete prefabricated floor slab according to claim A connecting reinforcement (4) in the form of a loop extends between the ribs (2), the loops arranged in rows perpendicular to the direction of the ribs (2).